RU2685151C1 - Method of assessing and selecting soi-high-road genotypes of soy in the regional conductivity of water vapors - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: invention is a method of assessing and selecting high-yielding soybean genotypes based on the stomatal conductance of leaf water vapour, including the determination of the stomatal conductance of the leaves by measuring the conductivity of water vapour on the central leaf plate of the trifoliate leaf, located at the top 4 node of the main shoot of soybean plants in the fruit formation phase, at that the measurements are carried out from 8:00 to 11:00 hours of the day using a portable gas analyzer of the brand LI-6400 XT and select forms with stomatal conductivity of water vapour by 25 % more than the average for the estimated sample.EFFECT: invention allows to reduce time costs and improve accuracy compared with known methods.1 cl, 2 dwg

Description

The invention relates to agriculture, in particular to the field of crop production and breeding.

One of the main tasks of modern breeding is the creation of varieties of agricultural plants that form a high and stable yield.

Yield formation depends on a variety of external and internal factors and is inextricably linked with the activity and effectiveness of photosynthesis - the most important link in the metabolism of green plants, which creates up to 95% of organic matter (Nichiporovich, AA Energy efficiency of photosynthesis and plant productivity / A. Nichiporovich // Pushchino: SC Biological Sciences Academy of the USSR. - 1979. - 37 p.) [1].

The efficiency of the process of photosynthesis is substantially determined by the activity of the stomatal apparatus of the leaves, through which not only the assimilation of CO ₂ , but also evaporation of water vapor, that is, transpiration (CJ Atkinson, M. Policarpo, AD Webster, G. Kingswell // Tree Physiology. - 2000. - 20. - P. 557-563.) [2]. Because of this, both these processes are closely interconnected by stomatal conductance, which determines the activity and efficiency of their flow, and, as a result, can significantly influence the growth rate of plants and the formation of the final yield by them. rootstocks / F. Li, S. Cohen, A. Naor, K. Shaozong, A. Erez // Agricultural Water Management. - 2002. - 55. - P. 1-14.) [3]. Therefore, it seems highly relevant for breeding to evaluate and select a breeding material based on stomatal conductance, which will make it possible to create promising starting material and new varieties based on fundamentally different factors based on the active and effective use of photosynthesis and transpiration by plants (Farquhar et al., 1989) (Farquhar GD Farquhar, JR Ehleringer, KT Hubick // Annual Review of Plant Physiology and Plant Molecular Biology. - 1989. - 40. - P. 503-537.) [4].

There is a method of determining stomatal resistance of leaves of plants, including placing a leaf in the chamber, pumping air through it and measuring the temperature of the leaf and evaporimeter at constant air humidity, followed by calculating the stomatal resistance using the formula (certificate of authorship SU № 1639497 A1, publ. 03.20.1995) [five].

The disadvantage of this method is that it is intended for use in stationary conditions and does not allow to assess the state of the plant body at the time of sampling from a large number of collection and selection samples growing in the field.

A known method by which the stomatal conductance of H ₂ O (gsw) or its reciprocal value — stomatal resistance (rsw) is calculated using transpiration (E) and deficiency of water vapor in air (D) based on Fick's law: E = gsw- (Wo -Wa) = (Wo-Wa) / rsw, where Wo is the concentration of saturated steam in the intercellular spaces (g / cm3), Wa is the concentration of water vapor in the air. Since the temperature of the needles is close to the air temperature, D = Wo-Wa (Tselnicker Yu.L., Korzukhin MD, Suvorova GG, Yan'kova L.S., Kopytova L.D., Filippova A.K. Impact Analysis environmental factors on photosynthesis of coniferous pre-Baikalia // Problems of ecological monitoring and modeling of ecosystems, St. Petersburg, Gidrometeoizdat, 2007. T. XXI. p. 265-292.) [6].

The disadvantage of the technique is that it is designed to study conifers and does not take into account the features of the growth and development of field crops (in our case, soybeans).

There is a method of selection of highly productive plants of cereal crops, based on the relationship between the ear weight and the grain weight from the ear, and the selection of plants for the maximum ear weight (ed. USSR N 1060151, class A101 1/04) [7].

There is a method of selecting highly productive forms of soybeans, including growing in the field as a part of a population of individual plants and their rejection - selection for the ratio JV / AF (selection trait / background trait), taking into account the nature of the ecological regression, and the fact that as a background sign take the mass of the segment of the lower part of the main shoot of the plant in the phase of full maturation.

The length of the segment of the lower part of the main shoot of the plant is taken equal to 7-10 cm, starting from the root collar. Obtaining a segment of the lower part of the shoot plants carried out in the field. The seed mass of a plant is determined by cutting fruit from a plant in the field, then threshing the fruit and weighing the obtained seeds under laboratory conditions.

This allows you to reduce the duration of the process of accounting for the background feature, to ensure the accuracy of its changes and the possibility of accounting in the field (RF patent №2482665 C1) [8].

The disadvantages of these methods are that they are based on the assessment of productivity elements and the morphology of plants, and do not take into account their physiological parameters - in our case stomatal conductivity of water vapor by the leaves, which plays an important role in the production process of plants.

The objective of the invention is to evaluate and highlight promising genetic material for the selection of soybean in the field in terms of stomatal conductivity of leaf water vapor while increasing the accuracy of selection.

The technical result of the invention is to reduce the time spent, the preservation of plants for further study while reducing the complexity of the measurements.

The task and the specified technical result is achieved due to the fact that in the present method of assessing and selecting a selection material of soybean by the stomatal conductivity of leaf water vapor, including determining the stomatal conductivity by measuring the conductivity of water vapor on the central leaf plate of the trifoliate leaf, located on the top 4 of the main node the shoot of soybean plants in the phase of fruit formation, while the measurements are carried out from 8:00 to 11:00 hours of the day using a portable gas analyzer brand LI-6400 XT, selecting plants from Achen stomatal conductance of water vapor to 25% from the mean value of the evaluated sample.

The invention is based on the functional relationship of the stomatal conductance of the leaves with photosynthesis and leaf transpiration and, as a result, with the yield. The proposed method allows all the necessary measurements to be reduced to two: determination of the stomatal conductance of the leaves by measuring the conductivity of water vapor / and to give an objective assessment of the potential potential yield of the studied samples by determining its actual value at seeding.

The magnitude of the correlation of the stomatal conductance of the leaves with the actual yield when evaluating 65 collection samples was +0.54 (with P = 0.05).

The essence of the proposed solution is illustrated by drawings, where in FIG. 1 is a graph showing the relationship of the stomatal conductance of water vapor to the intensity of leaf photosynthesis in soybean varieties of different productivity in the fruit formation phase, and FIG. Figure 2 shows the genotypic range of variation of stomatal conductance of water vapor and its relation to the yield of soybean genotypes in the fruit formation phase.

On a large collection of collection samples (65 pcs.) And modern zoned varieties (more than 15 pcs.), It was experimentally established that modern highly productive soybean genotypes have high stomatal conductance of leaf water vapor and photosynthesis intensity - the correlation coefficient was +0.72 and was reliable at level 05 (Fig. 1), which allows you to use this indicator to assess the gene pool of a crop and highlight promising ones for engaging in crop breeding for high seed productivity - coeff The correlation between stomatal conductance and seed yield of a variety was +0.54 and was reliable at level 05 (Fig. 2).

The measurements included the central leaf plate of the ternate leaf, located on the fourth from above node of the main shoot. This is due to the fact that they are physiologically most mature and make the greatest contribution to the formation of crop yields (Bartkov, B.I. Assimilation distribution during the fruiting of leguminous plants (about the principle of duplication in photosystems) / BI Bartkov, E.G. Zvereva // Physiology and Biochemistry of Cultivated Plants. - 1974. - Vol. 6. - Issue 5. - P. 502-505) [9].

The optimal time for the measurement is from 8:00 to 11:00 o'clock in the afternoon, because at this time of day the plants are not affected by an increase in air temperature at noon, as well as dehydration and overheating of the leaf and the plant as a whole.

The method is as follows.

In field conditions on intact plants of soybean genotypes, stomatal conductivity of leaf water vapor is measured by measuring the conductivity of the vapor on the central leaf plate of the ternate leaf, located on top 4 of the main shoot of soybean plants in the fruit formation phase, from 8:00 to 11:00 in the afternoon portable gas analyzer brand LI-6400 XT. (LI-6400 XT or equivalent brands) (LI-6400 XT Portable Photosynthesis System, LI-COR: Biosciences, www.licor.com) [10]. During 1.5-2 minutes, gas exchange stabilization in the measuring chamber is expected. Then fix the value of the stomatal conductivity of water vapor, which is displayed on the digital computer screen of the device, by pressing a button. For selection, plants with stomatal conductivity of water vapor are selected by 25% more than the average value of the estimated sample.

Example.

Evaluation of the breeding material was carried out on soybean varieties on the experimental fields of the FSBI VNII of grain and cereal crops and FSBI Tula NISH, when the plants reached the phase of development of fruit formation. In the field on intact plants in selective sowing, measurements started at 8:00 local time and continued until 11:00. In the experimental plot, healthy, typical plants for the assessed variety or soybean line were noted, with no visible damage to the central leaf plate of the trifoliate leaf, located on the 4th top node of the main shoot. A measuring chamber of a portable gas analyzer of the brand LI-6400 XT was attached to the leaf of the plant. During 1.5-2 minutes, gas exchange stabilization in the measuring chamber was expected. After that, the value of the conductivity of water vapor was recorded, which was displayed on the digital screen of the instrument's computer, by pressing a button. They detached the measuring chamber and proceeded to measure the next plant. The sequence of actions was repeated. According to the results of statistical processing of the obtained experimental data on the evaluation of the breeding material (varieties and lines) (Fig. 2), varieties and lines with stomatal conductance values of leaf water vapor were 25% higher than the average value in the sample. The linear correlation of the stomatal conductivity of water vapor from the soybean leaves with the yield in the collection of 65 genotypes was positive and amounted to +0.54, and with the intensity of photosynthesis - r = 0.59, which is significant at R.

This suggests that targeted selection for stomatal conductance can be effective. During the years of research, the interval of genotypic variation of stomatal conductance of water vapor from the leaves of soybean plants was: in 2015 - in the range from 0.11 to 0.52 mol H ₂ O m ² / s, in 2016 - from 0.42 to 1.02 mol H ₂ O m ² / s, in 2017 - from 0.35 to 2.22 mol H ₂ O m ² / s.

In our studies, the highest stomatal conductivity of water vapor was characterized by the Belgorodskaya 7 grade - 1.02 mol H ₂ O m ² / s; Belgorod 8 - 0.80 mol H ₂ O m ² / s; Bright - 0.75 mol H ₂ O m ² / s; Merlin - 0.69 mol H ₂ O m ² / s., Which can be recommended breeding as a starting material for creating varieties with high yields. This method of assessment will improve the selection efficiency by 15-25% and reduce the period of creating a variety with a high intensity of photosynthesis for 1-2 years.

The technical result of the invention is that with high accuracy and minimal time it is possible to assess soybean genotypes by the stomatal conductance of leaf water vapor in the field using the express method of preserving plants for subsequent evaluation by economically useful characteristics: yield, grain quality, resistance to biotic and abiotic stressors; and due to the wide range of variation of the trait (Fig. 2), high-yield varieties and lines with a high stomatal conductance of the leaves are selected for inclusion in the selection process of the culture.

Claims (1)

Method for assessing and selecting high-yielding soybean genotypes by stomatal conductance of leaf water vapor, including determining the stomatal conductance of leaves by measuring the conductance of water vapor on the central leaf plate of the trifoliate leaf, located 4 above the main shoots of soybean plants in the fruit formation phase, with measurements taken from : 00 to 11:00 pm of the day using a portable gas analyzer of the brand LI-6400 XT and select forms with stomatal conductivity values of water vapor by 25% more than the average of the estimated sample.

Images